含能材料
含能材料
함능재료
ENERGETIC MATERIALS
2014年
5期
684-687
,共4页
卢勇%王伯良%何中其%李席%刘波
盧勇%王伯良%何中其%李席%劉波
로용%왕백량%하중기%리석%류파
爆炸力学%温压炸药%水下爆炸%冲击波能%气泡能
爆炸力學%溫壓炸藥%水下爆炸%遲擊波能%氣泡能
폭작역학%온압작약%수하폭작%충격파능%기포능
explosion mechanics%thermobaric explosive%underwater explosion%shock wave energy%bubble energy
为了指导温压炸药配方设计,研究温压炸药能量输出与组分及实验气氛关系,采用水下爆炸的方法,通过冲击波能、气泡能和总能量分析其能量输出特性。结果表明:在实验条件下,冲击波能和总能量在铝粉含量为40%时最大,分别为338.27 kJ 和2549.84 kJ。气泡能在铝粉含量为50%时最大,为16.08 kJ·g -1。含氧量是影响温压炸药能量输出的重要因素。
為瞭指導溫壓炸藥配方設計,研究溫壓炸藥能量輸齣與組分及實驗氣氛關繫,採用水下爆炸的方法,通過遲擊波能、氣泡能和總能量分析其能量輸齣特性。結果錶明:在實驗條件下,遲擊波能和總能量在鋁粉含量為40%時最大,分彆為338.27 kJ 和2549.84 kJ。氣泡能在鋁粉含量為50%時最大,為16.08 kJ·g -1。含氧量是影響溫壓炸藥能量輸齣的重要因素。
위료지도온압작약배방설계,연구온압작약능량수출여조분급실험기분관계,채용수하폭작적방법,통과충격파능、기포능화총능량분석기능량수출특성。결과표명:재실험조건하,충격파능화총능량재려분함량위40%시최대,분별위338.27 kJ 화2549.84 kJ。기포능재려분함량위50%시최대,위16.08 kJ·g -1。함양량시영향온압작약능량수출적중요인소。
To guide the formulation design of thermobaric explosive(TBE)and study the relationship between TBE energy output, TBE component and experimental atmosphere,the energy output characteristics of TBE were analyzed via the shock wave energy, bubble energy and total energy,using an underwater explosion test method. Results show that under the experimental conditions, the shock wave energy and total energy of TBE with the aluminum powder content of 40% are maximum,their values are 338. 27, 2549. 84 kJ,respectively. The bubble energy of TBE with the aluminum powder content of 50% is maximum,its value is 16. 08 kJ·g -1 . The oxygen content is an important factor affecting the energy output of TBE.
